| Literature DB >> 30280264 |
Zohreh HosseinKhani1, Mohsen Hajabdollahi1, Nader Karimi1, Reza Soroushmehr2,3, Shahram Shirani4, Kayvan Najarian5,6, Shadrokh Samavi1,4.
Abstract
Noise is an important factor that degrades the quality of medical images. Impulse noise is a common noise caused by malfunctioning of sensor elements or errors in the transmission of images. In medical images due to presence of white foreground and black background, many pixels have intensities similar to impulse noise and hence the distinction between noisy and regular pixels is difficult. Therefore, it is important to design a method to accurately remove this type of noise. In addition to the accuracy, the complexity of the method is very important in terms of hardware implementation. In this paper a low complexity de-noising method is proposed that distinguishes between noisy and non-noisy pixels and removes the noise by local analysis of the image blocks. All steps are designed to have low hardware complexity. Simulation results show that in the case of magnetic resonance images, the proposed method removes impulse noise with an acceptable accuracy.Keywords: Hardware implementation; Impulse noise; Low complexity; Medical image restoration; Salt and pepper noise
Mesh:
Year: 2018 PMID: 30280264 DOI: 10.1007/s10916-018-1074-7
Source DB: PubMed Journal: J Med Syst ISSN: 0148-5598 Impact factor: 4.460